ref: b257bd831900953f00ac4540a4538210851f9d25
dir: /src/zmath.h/
#ifndef __ZMATH__
#define __ZMATH__
#include "../include/GL/gl.h"
#include "../include/zfeatures.h"
#include <stdlib.h>
#include <string.h> //For memcpy
#include <math.h>
/* Matrix & Vertex */
typedef struct {
TGL_ALIGN GLfloat m[4][4];
} M4;
typedef struct {
TGL_ALIGN GLfloat m[3][3];
} M3;
typedef struct {
TGL_ALIGN GLfloat m[3][4];
} M34;
#define X v[0]
#define Y v[1]
#define Z v[2]
#define W v[3]
typedef struct {
TGL_ALIGN GLfloat v[3];
} V3;
typedef struct {
TGL_ALIGN GLfloat v[4];
} V4;
void gl_M4_Id(M4* a);
int gl_M4_IsId(M4* a);
void gl_M4_Move(M4* a, M4* b);
void gl_MoveV3(V3* a, V3* b);
void gl_MulM4V3(V3* a, M4* b, V3* c);
void gl_MulM3V3(V3* a, M4* b, V3* c);
void gl_M4_MulV4(V4* a, M4* b, V4* c);
void gl_M4_InvOrtho(M4* a, M4 b);
void gl_M4_Inv(M4* a, M4* b);
void gl_M4_Mul(M4* c, M4* a, M4* b);
void gl_M4_MulLeft(M4* c, M4* a);
void gl_M4_Transpose(M4* a, M4* b);
void gl_M4_Rotate(M4* c, GLfloat t, GLint u);
//int gl_V3_Norm(V3* a);
//int gl_V3_Norm_Fast(V3* a);
V3 gl_V3_New(GLfloat x, GLfloat y, GLfloat z);
V4 gl_V4_New(GLfloat x, GLfloat y, GLfloat z, GLfloat w);
int gl_Matrix_Inv(GLfloat* r, GLfloat* m, GLint n);
/*
static inline GLfloat fastInvSqrt(float x){
GLint i; GLfloat y;
memcpy(&i, &x, 4);
i = 0x5f3759df - (i>>1);
//y = (union{GLint l; GLfloat f; }){i}.f;
memcpy(&y, &i, 4);
return y * (1.5F - 0.5F * x * y * y);
}
*/
#if TGL_FEATURE_FISR == 1
/*
inline GLfloat fastInvSqrt(float x){
union{GLfloat f; GLint i;} conv;
conv.f = x;
conv.i = 0x5F1FFFF9 - (conv.i>>1);
conv.f *= 0.703952253f * (2.38924456f - x * conv.f * conv.f);
return conv.f;
}*/
//Defined behavior fastinvsqrt
static inline GLfloat fastInvSqrt(GLfloat x){
GLint i;
GLfloat x2;
memcpy(&i, &x, 4);
i = 0x5F1FFFF9 - (i>>1);
memcpy(&x2, &i, 4);
x2 *= 0.703952253f * (2.38924456f - x * x2 * x2);
return x2;
}
#endif
static inline int gl_V3_Norm_Fast(V3* a) {
GLfloat n;
#if TGL_FEATURE_FISR == 1
n = fastInvSqrt(a->X * a->X + a->Y * a->Y + a->Z * a->Z); //FISR
if(n>1E+3)
return 1;
#else
n = sqrt(a->X * a->X + a->Y * a->Y + a->Z * a->Z); //NONFISR
if (n == 0)
return 1;
n = 1.0 / n;
#endif
a->X *= n;
a->Y *= n;
a->Z *= n;
return 0;
}
#endif
// __ZMATH__